隆林县2009—2010年秋冬春连旱成因分析与评估

分析2009～2010年隆林秋冬春连旱的直接原因和深层次原因,并利用降水距平百分率和相对湿润度指数对气象干旱等级进行评估,为政府和有关部门抗旱救灾和灾害评估提供参考。     

春季高原东侧水平稳定层分析

本文利用稠密的探空资料,分析了春季高原东侧的水平稳定层。确定了该稳定层的范围和强度,指出了其温度、湿度和流场特征,并初步探讨了其维持机制。     

春季北方气旋活动的气候特征及与气温和降水的关系

利用1948-2002年NCEP／NCAR再分析逐日海平面气压资料以及中国160站的降水和气温资料，分析了春季北方气旋活动频数和强度的时空变化特征，以及两者与中国降水和气温的相关关系。结果表明：春季北方气旋活动频繁，存在明显的两个高值中心，分别位于蒙古国的中部和我国东北北部地区。春季北方气旋活动频数和强度均存在明显的年际和年代际变化。伴随着一次全球性的年代际气候跃变，20世纪70年代中后期无论是频数还是强度均出现了显著的突变。春季北方气旋活动频数主要对我国北方地区的降水和气温有一定影响，活动频数多(少)年，我国华北大部、新疆北部降水偏少(多)；北疆地区气温回升(下降)，甘、宁、陕、内部分地区偏冷(暖)。80-90年代春季北方气旋活动频数的偏少，强度的减弱，导致我国北方地区沙尘暴次数比70年代减少.     

宁夏春季首场透雨的气候预测探索

利用目前在统计预报中广泛应用的最优子集回归预报法,作宁夏南部山区及银川地区春季首场透雨出现日期的统计预报,给出了具体的预报方程和拟合效果分析。并对近30 a来宁夏南部山区及银川地区首场透雨出现日期的变化特征进行了较详细的分析。研究结果表明:银川地区3月份出现首场透雨的气候概率为23.3%、4月份为20%、5月份为23.3%、6月份为33.3%,出现机会相对较多。30 a来春季首场透雨出现日期:20世纪70年代相对较晚,80年代偏早,90年代介于70、80年代之间。南部山区春季首场透雨出现时间相对比较集中,其中4月份出现的气候概率为53%,其次是5月份和3月份,分别为20%和17%,最小的是6月份,只占10%,从近30 a来的总趋势看,南部山区春季首场透雨出现日期在波动中略有推迟现象。利用最优子集回归预报法对宁夏春季首场透雨出现日期的预测具有理想的拟合效果。     

石家庄春季自然物候对气候变化的响应研究

分析了石家庄1965-2007年杨絮始落、鸭梨始花和刺槐盛花3种植物物候期的变化特征以及对气候的响应规律。结果表明：（1）石家庄春季物候期普遍提早,早春的物候期提前天数多,晚春物候期提早天数少。石家庄春季物候现象普遍存在着2～3年的周期。（2）通过计算石家庄春季物候与气温、日照和降水量的相关关系,发现与气温的关系最好,与降水日数表现出弱的相关性,与日照关系不明显,说明气温是影响石家座春季物候的主导气象因子,GDD是衡量植物热量供应的较好指标,而日照对物候期影响表现出不同物种和不同物候现象间的差异性特征。（3）石家庄春季物候期与ENSO事件也表现出一定的关系,在暖事件年以物候期偏早为主,在冷事件年无明显早晚趋势。     

巴州春季气温趋势分类及预报

提出一种对春季气温趋势分类的方法，用чeσbцшeB多项式和EOF展开方法，求出一组系数，并根据这些系数把春季气温趋势分为5类，用上述方法明确地描述春季气温趋势的特征，更进一步从冬季500hPa平均图中选取预报因子，对春季气温趋势作出预测。     

近50年中国冬季大地冷涡与春夏季干旱相关的统计

通过对冬季大地冷涡与春夏季干旱的相关分析,发现:除高原主体外,冬季的大地冷涡对应着春夏季为干旱少雨区;而且大地冷涡东面的地冷涡绝大多数也是春夏季的干旱少雨区。冬季大地冷涡在中国的出现频率为80%,可作为短期气候预测的重要因子。     

THE EFFECT OF EQUATORIAL CENTRAL PACIFIC SSTAS ON THE INTERANNUAL VARIATION OF PRECIPITATION OVER SOUTHWEST CHINA DURING SPRING

The interannual variations of rainfall over southwest China (SWC) during spring and its relationship with sea surface temperature anomalies (SSTAs) in the Pacific are analyzed, based on monthly mean precipitation data from 26 stations in SWC between 1961 and 2010, NCEP/NCAR re-analysis data, and Hadley global SST data. Sensitivity tests are conducted to assess the response of precipitation in SWC to SSTAs over two key oceanic domains, using the global atmospheric circulation model ECHAM5. The interannual variation of rainfall over SWC in spring is very significant. There are strong negative (positive) correlation coefficients between the anomalous precipitation over SWC and SSTAs over the equatorial central Pacific (the mid-latitude Pacific) during spring. Numerical simulations show that local rainfall in the northwest of the equatorial central Pacific is suppressed, and a subtropical anticyclone circulation anomaly is produced, while a cyclonic circulation anomaly in the mid-latitude western Pacific occurs, when the equatorial Pacific SSTAs are in a cold phase in spring. Anomalous northerly winds appear in the northeastern part of SWC in the lower troposphere. Precipitation increases over the Maritime Continent of the western equatorial Pacific, while a cyclonic circulation anomaly appears in the northwest of the western equatorial Pacific. A trough over the Bay of Bengal enhances the southerly flow in the south of SWC. The trough also enhances the transport of moisture to SWC. The warm moisture intersects with anomalous cold air over the northeast of SWC, and so precipitation increases during spring. On the interannual time scale, the impacts of the mid-latitude Pacific SSTAs on rainfall in SWC during spring are not significant, because the mid-latitude Pacific SSTAs are affected by the equatorial central Pacific SSTAs; that is, the mid-latitude Pacific SSTAs are a feedback to the circulation anomaly caused by the equatorial central Pacific SSTAs.     

Evaluation of Agricultural Climatic Resource Utilization During Spring Maize Cultivation in Northeast China Under Climate Change

Agricultural climatic resources （such as light,temperature,and water） are environmental factors that affect crop productivity.Predicting the effects of climate change on agricultural climatic resource utilization can provide a theoretical basis for adapting agricultural practices and distributions of agricultural production.This study investigates these effects under the IPCC （Intergovernmental Panel on Climate Change） scenario A1B using daily data from the high-resolution RegCM3 （0.25° ×0.25°） during 1951-2100.Model outputs are adjusted using corrections derived from daily observational data taken at 101 meteorological stations in Northeast China between 1971 and 2000.Agricultural climatic suitability theory is used to assess demand for agricultural climatic resources in Northeast China during the cultivation of spring maize.Three indices,i.e.,an average resource suitability index （Isr）,an average efficacy suitability index （Ise）,and an average resource utilization index （K）,are defined to quantitatively evaluate the effects of climate change on climatic resource utilization between 1951 and 2100.These indices change significantly in both temporal and spatial dimensions in Northeast China under global warming.All three indices are projected to decrease in Liaoning Province from 1951 to 2100,with particularly sharp declines in Isr,Ise,and K after 2030,2021,and 2011,respectively.In Jilin and Heilongjiang provinces,Isr is projected to increase slightly after 2011,while Ise increases slightly and K decreases slightly after 2030.The spatial maxima of all three indices are projected to shift northeastward.Overall,warming of the climate in Northeast China is expected to negatively impact spring maize production,especially in Liaoning Province.Spring maize cultivation will likely need to shift northward and expand eastward to make efficient use of future agricultural climatic resources.     

西北地区东部春季土壤湿度变化的初步研究

利用中国西北地区东部 (包括宁夏、内蒙古西部以及甘肃、陕西两省 35°N以北地区 )农业气象站近 2 0年固定地段旬土壤湿度资料 ,对该地区春季土壤湿度的变化进行了初步分析。结果表明 ,中国西北地区东部土壤湿度的变化具有 3年左右的周期 ,而且 2 0世纪 90年代以来呈下降的趋势 ,这与该地区的降水和气温变化有关系 ;西北地区东部的土壤湿度变化对该地区群发性沙尘暴的爆发有一定影响